Next-Generation SMD High Voltage Mica Capacitors: CM-HVLP Power, Easy Integration, and Miniaturization
Exxelia announces the introduction of a new generation of high-voltage reconstituted mica capacitors designed to combine pulse and filtering capabilities within a compact SMD package.
The new CM-HVLP series (High-Voltage Low-Profile Reconstituted Mica Capacitors) addresses growing demand for high-voltage, robust, and low-profile components in volume-constrained electronic systems.
The new capacitors are engineered to meet the requirements of applications where high voltage handling, fast charge/discharge cycles, and reliability under repetitive stress are essential. Their design enables use in both pulse applications—such as charge and discharge circuits—and high-voltage filtering functions, offering a versatile solution for advanced electronic architectures.
The CM-HVLP series combines the intrinsic stability of reconstituted mica dielectric technology without any drift under voltage of the capacitance value and a breakthrough compact SMD footprint, supporting the ongoing miniaturization of high-power electronic systems. The capacitors provide high energy density, very low Equivalent Series Inductance (ESL), and the capability to withstand extreme dV/dt rates, enabling ultra-fast discharge performance even under intensive repetitive cycles. The design is also optimized to propose low ESR value.
Space Heritage & Extreme Reliability
Leveraging a long-standing experience with Space QPL reconstituted mica capacitors, Exxelia is now introducing this same technology through the new CM HVLP series, specifically designed to meet the stringent requirements of the defense market. To ensure mission-critical reliability, qualification tests are performed according to the most stringent MIL standards, including:
• Mechanical: Severe shock and vibration profiles.
• Thermal: Extreme temperature cycling ranging from -55°C to +125°C.
• Long endurance life-test
Unmatched Miniaturization
Designed with integration in mind, the components feature a reduced footprint that facilitates placement in dense PCB layouts. The series offers a significant size advantage, with a format (8080) measuring only 20x20mm. This balance between miniaturization and power capability makes the technology particularly relevant for Space, Aerospace, Defense, Medical, and Aviation systems, where reliability and electrical stability are critical.
The new SMD high-voltage mica capacitors will be officially presented during the Components for Military & Space Electronics (CMSE) 2026, taking place April 28–30, 2026, in Los Angeles, USA. Visitors will be able to discover the technology on the Exxelia booth B13, where the company will showcase its latest developments in high-reliability passive components for demanding environments.
Technical specifications:
• Capacitance range: From 10 nF to 750 nF
• Voltage range : 2 500 VDISCH to 5 000 VDISCH / 1 500 VDC to 4 000 VDC
• Dissipation Factor (Tg δ) : ≤ 50.10-4 at 1 kHz
• Insulation resistance under 500 V : for C ≤ 0.22µF , IR ≥ 25000MΩ
for C ≥ 0.22µF , IR ≥ 5000MΩ.µF
• Dielectric Withstanding Voltage 1.4 VDC
• Insulation between leads and case under 500V ≥ 25 000 MΩ
About Exxelia
Exxelia is a leading global designer and manufacturer of high performance passive components and subsystems with factories in France, Morocco, United States, India and Vietnam. Exxelia’s product portfolio includes a wide range of capacitors (film, tantalum, ceramic and electrolytic capacitors) and ruggedized magnetic products (inductors, transformers, rotor, stator, etc.), resistors, slip rings, position sensors, medical sensors and high-precision mechanical parts. Recognized worldwide for its advanced design and technical expertise, Exxelia develops both “catalog” and “custom” products exclusively serving high-reliability markets such as aeronautic, space, defense, medical, transportation, telecommunication infrastructure and advanced industrial applications. Additional information can be found at www.exxelia.com.
Partener Principal
MATEK Build Smart